Title :
Coded continuous phase modulation using ring convolutional codes
Author :
Rimoldi, Bixio ; Li, Quinn
Author_Institution :
Dept. of Electr. Eng., Washington Univ., St. Louis, MO, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
Rate 1/2 convolutional codes over the ring of integers modulo M are combined with M-ary continuous phase modulation (CPM) schemes whose modulation indices are of the form h=1/M. An M-ary CPM scheme with h=1/M can be modeled by a continuous-phase encoder (CPE) followed by a memoryless modulator (MM), where the CPE is linear over the ring of integers modulo M. The fact that the convolutional code and the CPE are over the same algebra allows the state of the CPE to be fed back and used by the convolutional encoder. A modified Euclidean distance function that substantially simplifies the search for good codes has been derived and used to find new codes. Numerical results show that this approach consistently improves the performance as compared to coded schemes using binary convolutional codes with the same decoding complexity
Keywords :
continuous phase modulation; convolutional codes; decoding; modulation coding; modulators; search problems; M-ary CPM; M-ary continuous phase modulation; algebra; binary convolutional codes; code search; coded continuous phase modulation; continuous-phase encoder; convolutional encoder; decoding complexity; memoryless modulator; modified Euclidean distance function; modulation indices; numerical results; performance; rate 1/2 convolutional codes; ring convolutional codes; Binary codes; Continuous phase modulation; Convolution; Convolutional codes; Decoding; Frequency; Labeling; Phase modulation; Signal generators; Viterbi algorithm;
Journal_Title :
Communications, IEEE Transactions on
